Disclosed are light emitting display and method of manufacturing the same. The light emitting display according to the present embodiments includes a first substrate including a plurality of light emitting devices and a pad portion, all of which are formed therein; a second substrate disposed to face the light emitting devices; and a bonding layer bonded to the light emitting devices and the second substrate, wherein a stepped portion is formed at a predetermined depth in an edge of the second substrate that is adjacent to the pad portion, and the bonding layer is extended to the stepped portion. Since the bonding layer is not bonded to the pad portion due to the depth of the stepped portion when the second substrate is bonded to the first substrate, poor electrical contact may be prevented, and it easy to remove the encapsulation substrate to expose the pad portion. Also, the manufacturing process is simple, the process uniformity is high and the process time is short since the bonding layer is formed in the front of the second substrate.
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1. A light emitting display, comprising:
a first substrate including a plurality of light emitting devices formed in a pad portion configured to supply signals to the light emitting devices;
a second substrate disposed to face the light emitting devices; and
a bonding layer bonded to the light emitting devices and the second substrate,
wherein a stepped portion is formed in an edge of the second substrate that is adjacent to the pad portion, and wherein the bonding layer is extended to the stepped portion;
wherein the bonding layer is composed of solid film both sides of which have adhesive property; and
wherein the solid film is calcium hydroxide (Ca(OH)2.
6. A method of manufacturing a light emitting display, the method comprising:
preparing a first substrate including a plurality of light emitting devices formed in a pad portion configured to supply signals to the light emitting devices;
providing a second substrate having a stepped portion formed in a region corresponding to the pad portion;
forming a bonding layer on the second substrate including the stepped portion;
disposing the first substrate and the second substrate to face each other;
removing the second substrate and the bonding layer for the region corresponding to the pad portion; and
heat-treating the first substrate and the second substrate so that the first substrate and the second substrate are bonded by the bonding layer;
wherein the bonding layer is composed of solid film both sides of which have adhesive property; and
wherein the solid film is calcium hydroxide (Ca(OH)2.
10. A method of manufacturing a light emitting display, the method comprising:
preparing a first substrate having a plurality of panel regions defined by scribe lines and including a plurality of light emitting devices formed in pad portions configured to supply signals to the light emitting devices;
providing a second substrate having stepped portions formed in regions corresponding to the pad portions;
forming a bonding layer on the second substrate including the stepped portions;
disposing the first substrate and the second substrate to face each other;
cutting the first substrate along the scribe lines and separating the panel regions by removing the second substrate and the bonding layer for the regions corresponding to the pad portions; and
heat-treating the first substrate and the second substrate so that the first substrate and the second substrate are bonded by the bonding layer;
wherein the bonding layer is composed of solid film both sides of which have adhesive property; and
wherein the solid film is calcium hydroxide (Ca(OH)2).
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This application claims priority to and the benefit of Korean Patent Application No. 10-2007-0090457, filed on Sep. 6, 2007, in the Korean Intellectual Property Office, the entire content of which is incorporated herein by reference.
1. Field of the Invention
The present embodiments relate to a light emitting display and a method of manufacturing the same, and more particularly to a light emitting display having a bonding layer provided between a substrate and an encapsulation substrate, the substrate having a light emitting device formed therein, and a method of manufacturing the same.
2. Description of the Related Art
Light emitting devices such as an organic light emitting diode includes organic matter that is vulnerable to moisture or oxygen, and therefore it is necessary to protect such devices from the moisture or oxygen. Accordingly, containers manufactured in the form of a can or a cup made of metal materials, or encapsulation substrates made of glass or plastic are disposed to face a substrate having a light emitting device formed therein, and sealed with a sealant such as epoxy to prevent penetration of moisture or oxygen. However, the structure of the light emitting display has problems in that it is vulnerable to internal pressure due to the presence of void space between the substrate and the encapsulation substrate. A sealed region may be easily broken by the impact due to the low structural reliability. Also, the manufacturing process is complicated.
Accordingly, the present embodiments solve such drawbacks of the prior art, and therefore an object of the present embodiments is to provide a light emitting display having a high structural reliability, and a method of manufacturing the same.
Another object of the present embodiments is to provide a light emitting display capable of simplifying a manufacturing process, and a method of manufacturing the same.
One embodiment is achieved by providing a light emitting display including a first substrate including a plurality of light emitting devices and a pad portion for supplying signals to the light emitting devices, all of which are formed therein; a second substrate disposed to face the light emitting devices; and a bonding layer bonded to the light emitting devices and the second substrate, wherein a stepped portion is formed in an edge of the second substrate that is adjacent to the pad portion, and the bonding layer is extended to the stepped portion.
Another embodiment is achieved by providing a method of manufacturing a light emitting display including steps of preparing a first substrate including a plurality of light emitting devices and a pad portion for supplying signals to the light emitting devices, all of which are formed therein; providing a second substrate having a stepped portion formed in a region corresponding to the pad portion; forming a bonding layer on the second substrate including the stepped portion; disposing the first substrate and the second substrate to face each other; removing the second substrate and the bonding layer for the region corresponding to the pad portion; and heat-treating the first substrate and the second substrate so that the first substrate and the second substrate are bonded by the bonding layer.
Still another embodiment is achieved by providing a method of manufacturing a light emitting display including steps of preparing a first substrate having a plurality of panel regions defined by scribe lines and including a plurality of light emitting devices and pad portions for supplying signals to the light emitting devices, all of which are formed in each of the panel region; providing a second substrate having stepped portions formed in regions corresponding to the pad portions; forming a bonding layer on the second substrate including the stepped portions; disposing the first substrate and the second substrate to face each other; cutting the first substrate along the scribe lines and separating the panel regions by removing the second substrate and the bonding layer for the regions corresponding to the pad portions; and heat-treating the first substrate and the second substrate so that the first substrate and the second substrate are bonded by the bonding layer.
These and/or other embodiments and features will become apparent and more readily appreciated from the following description of certain exemplary embodiments, taken in conjunction with the accompanying drawings of which:
In the following detailed description, only certain exemplary embodiments have been shown and described, simply by way of illustration. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present embodiments. Accordingly, the drawings and description are to be regarded as illustrative in nature and not restrictive. In addition, when an element is referred to as being “on” another element, it can be directly on the another element or be indirectly on the another element with one or more intervening elements interposed therebetween. Also, when an element is referred to as being “connected to” another element, it can be directly connected to the another element or be indirectly connected to the another element with one or more intervening elements interposed therebetween. Hereinafter, like reference numerals refer to like elements.
The light emitting display according to the present embodiments includes a substrate 100 including a plurality of light emitting devices 130 and a pad portion 160 for supplying signals to a light emitting device 130, all of which are formed therein; an encapsulation substrate 200 disposed to face the light emitting device 130; and a bonding layer 300 bonded to the light emitting device 130 and the encapsulation substrate 200.
The substrate 100 is composed of a pixel region 120 and a non-pixel region 140 surrounding the pixel region 120. The light emitting device 130 is formed in the pixel region 120 of the substrate 100, and may be composed of organic light emitting diodes including an anode electrode, an organic thin film layer and a cathode electrode. And, the pad portion 160 is formed in the non-pixel region 140 of the substrate 100, and may include a bonding pad to which a plurality of input pads and a drive circuit 180 are attached, a plurality of the input pads functioning to input signals from the outside. The drive circuit 180 processes the signals inputted through the input pad to generate signals for driving a light emitting device 130.
The encapsulation substrate 200 has a size such that it can be overlapped with some of the pixel region 120 and the non-pixel region 140, and a predetermined depth of the stepped portion 210 is formed in an edge adjacent to the pad portion 160.
The bonding layer 300 is formed in the front of the encapsulation substrate 200 including the stepped portion 210. The bonding layer 300 may be formed by attaching to the front of the encapsulation substrate 200 a solid film that has a high transmittance and adhesive properties on both sides or formed by coating the entire surface of the encapsulation substrate 200 with a liquid material having a high viscosity and softening the encapsulation substrate 200 (heat treatment or irradiation of ultraviolet rays). When the substrate 100 and the encapsulation substrate 200 are disposed to face each other, the light emitting device 130 is sealed by bonding the encapsulation substrate 200 to the substrate 100 through the bonding layer 300. In this case, the bonding layer 300 preferably includes an absorbent to prevent penetration of moisture or oxygen into the light emitting device 130.
The present embodiments will now be described in more detail with reference to the method of manufacturing a light emitting display according to the present embodiments.
Referring to
The light emitting device 130 is formed in a pixel region 120 of the substrate 100. The light emitting device 130 may be composed of organic light emitting diodes including an anode electrode, an organic thin film layer and a cathode electrode, and further include a thin film transistor for controlling operation of the light emitting device 130; and a capacitor for maintaining a signal. See US Patent Publication No. 2005/0104514 (published on May 19, 2005) and Korean Patent Publication No. 2003-0092873 (published on Dec. 6, 2003) (both of which are herein incorporated by reference in their entirety) for the method for manufacturing an organic light emitting diode.
The pad portion 160 may include a plurality of input pads 160a formed in the non-pixel region 140 of the substrate 100 and inputting a signal from the outside; and a bonding pad 160b to which a drive circuit is attached.
Referring to
The stepped portion 210 of the encapsulation substrate 200 may be formed using various methods such as etching, sand blasting, molding, etc. In some embodiments, the stepped portion 210 is formed at a higher depth than the bonding layer 300, and preferably at a higher depth as much as 2 times or more than the bonding layer 300.
Referring to
The bonding layer 300 is formed in the front of the encapsulation substrate 200 including the stepped portion 210. The bonding layer 300 may be formed by attaching to the front of the encapsulation substrate 200 a solid film that has a high transmittance and which both sides have adhesive property, or formed by coating the entire surface of the encapsulation substrate 200 with a liquid material having a high viscosity and softening the encapsulation substrate 200 (heat treatment or irradiation of ultraviolet rays). Materials of the solid film may be at least one selected from the group consisting of silicon oxides (SiOx), calcium oxide (CaO), calcium hydroxide (Ca(OH)2), silicon nitride (SiN), silicon acid nitride (SiON), acryl resin, epoxy resin, fluorine resin and TEFLON® (Dupont, Wilmington, Del.) resin, and the liquid material may be one selected from the group consisting of acryl resin, epoxy resin, fluorine resin and TEFLON® resin. Also, the bonding layer 300 preferably includes an absorbent to prevent penetration of moisture or oxygen into the light emitting device 130.
Referring to
Referring to
Referring to
If the bonding layer 300 is formed in the encapsulation substrate 200 where the stepped portion 210 is not formed and the substrate 200 and the encapsulation substrate 200 are bonded to each other, the bonding layer 300 is bonded even to the pad portion 160, which leads to the poor electrical contact and the difficulty in removing the encapsulation substrate 200. To solve the above problems, a bonding layer produced in the form of film is patterned and bonded selectively. However, the uniform process is difficult due to the difference in physical properties such as dimensional tolerance and tensile force according to the thickness of the film, and the process time is increased. According to the present embodiments, if the stepped portion 210 is formed in the encapsulation substrate 200 of the region corresponding to the pad portion 160, the bonding layer 300 is not in direct contact with the pad portion 160 when the substrate 100 and the encapsulation substrate 200 are bonded to each other. Therefore, poor electrical contact is prevented, and it is also easy to remove the encapsulation substrate 200 to expose the pad portion.
Referring to
Referring to
The light emitting device 130 is formed in the pixel region 120 of the substrate 100. The light emitting device 130 may be composed of organic light emitting diodes including an anode electrode, an organic thin film layer and a cathode electrode, and further include a thin film transistor for controlling operation of the light emitting device 130 and a capacitor for maintaining a signal.
The pad portion 160 is formed in the non-pixel region 140 of the substrate 100, and may include a plurality of input pads 160a for inputting signals from the outside and a bonding pad 160b to which a drive circuit is attached.
Referring to
Then, a bonding layer 300 is formed in the front of the encapsulation substrate 200 including the stepped portions 210. The bonding layer 300 may be formed by attaching to the front of the encapsulation substrate 200 a solid film that has a high transmittance and whose both sides have adhesive property, or formed by coating the entire surface of the encapsulation substrate 200 with a liquid material having a high viscosity and softening the encapsulation substrate 200 (heat treatment or irradiation of ultraviolet rays).
Referring to
Referring to
Referring to
According to the exemplary embodiment, the drive circuit 180 may be formed on the substrate 100 of the non-pixel region 140 in the process of manufacturing the light emitting device 130, or the drive circuit may be manufactured into separate integrated circuit semiconductor chips, and then attached to the bonding pad 160 using a chip on glass process or a wire bonding process.
As described above, according to the present embodiments, the stepped portion is formed in the encapsulation substrate of the region corresponding to the pad portion, and the bonding layer is formed in the front of the encapsulation substrate including the stepped portion. Therefore, the poor electrical contact may be prevented and it is also easy to remove the encapsulation substrate to expose the pad portion since the bonding layer is not in contact with the pad portion due to the presence of the depth of the stepped portion when the substrate and the encapsulation substrate are bonded to each other.
The light emitting display according to the exemplary embodiment has advantages that the manufacturing process is simple, the process uniformity is high, and the process time is short since a bonding layer is formed in the front of the encapsulation substrate. Also, the internal pressure and structural reliability are improved since the light emitting device is protected from the penetration of moisture or oxygen due to the presence of the bonding layer and a space between the substrate and the encapsulation substrate is filled with the bonding layer.
Although exemplary embodiments have been shown and described, it would be appreciated by those skilled in the art that changes might be made in these embodiments without departing from the principles and spirit of the present embodiments, the scope of which is defined in the claims and their equivalents.
Song, Seung-Yong, Ryu, Ji-hun, Kwon, Oh-June, Choi, Young-Seo, Jung, Sun-Young, Joo, Young-Cheol
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